Lightweight RF cable assembly design is essential in UAV applications, where every gram counts. These systems must meet strict weight requirements without compromising performance, reliability, or durability. UAVs operate in dynamic and demanding conditions, requiring interconnect solutions that deliver consistent signal integrity while minimizing drag and payload burden.
UAVs are classified into five groups by size and capability, each with unique performance, payload, and communication needs.
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Advancements in UAV technology demand RF solutions that meet strict SWaP requirements, pushing the limits of size, weight, and power without sacrificing performance.
Learn More Related productsHeritage reflects not just longevity but also accumulated technical wisdom across platforms. Decades of development in manned aircraft, rotary-wing fleets, naval systems, missile programs, and legacy UAVs have built a knowledge base that engineers can apply directly to modern unmanned systems.
Factors to consider in selecting the optimal coaxial cable and connector technology for UAVs include developing a thorough understanding of its intended environment such as altitude requirements, longevity, maintenance, etc. as well as the UAV’s purpose: will it carry electronic warfare systems or electronic intelligence systems, or is it purely data links and video? Different selections should be made based on which of those criteria is highest priority.
RF technology for UAVs prioritizes weight reduction to increase fuel efficiency while meeting stringent electrical and mechanical requirements for safety. Low loss, phase stability, and high performance in a shock and vibration environment require a balancing act to reduce size with careful evaluation of materials, constructions, and maintenance.
UAV applications have limited space as they accommodate more application needs throughout the vehicle. As frequencies increase and interconnect dimensions decrease to accommodate smaller wavelengths, semi-rigid solutions have traditionally been used for these applications. However, these assemblies in very small sizes become fragile, making installation difficult and troubleshooting impossible.
RF technology for UAVs prioritizes weight reduction to increase fuel efficiency while meeting stringent electrical and mechanical requirements for safety. Low loss, phase stability, and high performance in a shock and vibration environment require a balancing act to reduce size with careful evaluation of materials, constructions, and maintenance.
Some UAVs are fairly simple and use a single data link, which requires a relatively simple RF interconnect solution. However, some UAVs are becoming Mach 5 as hypersonics are introduced, which adds high temperature requirements into the mix. The higher the altitude, the higher the speed, the higher the frequency, the more complex the problem from a materials point of view.
A key consideration for RF interconnections used in avionics applications is the dielectric and how it behaves in that environment. For example, an aircraft on the ground is fully loaded with air. But at flight altitude, more of a vacuum environment is created, with outgassing conditions for dielectric and other electronic materials. When the aircraft returns to the ground, the cable is fundamentally a vacuum. Any fluids or gases surrounding it will be absorbed by the dielectric, and they will recondense within it. At that point, the dielectric acts like a sponge; the only way to remove contaminants is to bake it. This is obviously not feasible inside an aircraft, so vapor sealing is also critical for high-end, high-performance, high-altitude applications.
Maintenance is vital to the functionality and longevity of unmanned systems. In many unmanned systems, antennas are often difficult to access, making maintenance and replacement very complicated and time-consuming.
For environments where lightweight construction must coexist with uncompromising electromagnetic compatibility, ARACON® braided EMI shields from Micro-Coax provide the perfect complement to Levitate assemblies. Made from Kevlar® fibers coated in nickel or silver, ARACON shields offer up to 80 % weight reduction compared to copper braids while maintaining exceptional EMI/RFI shielding and lightning protection performance.
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LRU (Line Replaceable Unit): Internal UAV subsystems or modules designed for quick replacement and maintenance, typically involving short, high-performance RF connections inside the system.
Airframe: The external structural body of the UAV where longer cable runs are routed, requiring solutions that can withstand environmental exposure, vibration, and extended distances.
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